Assessment of mass transfer coefficients in extraction stages of La(III) and Ce(III) ions by using rotating Scheibel column with regular packing structure

[Display omitted] •Pilot Scheibel column was investigated for extraction of La(III) and Ce(III) ions.•Forward mixing model was used for the description of mass transfer coefficient.•Results showed positive and negative effects of operating parameter on Ec, Ed, and α.•The FMM model has good desirabil...

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Published in	Separation and purification technology Vol. 274; p. 119118
Main Authors	Asadollahzadeh, Mehdi, Torkaman, Rezvan, Torab-Mostaedi, Meisam, Saremi, Mojtaba
Format	Journal Article
Language	English
Published	Elsevier B.V 01.11.2021
Subjects	Axial dispersion Model Forward Mixing Model Mass Transfer Data Regular Packing Structure Scheibel Column Regular Packing Structure Scheibel Column Axial dispersion Model Mass Transfer Data Forward Mixing Model
Online Access	Get full text
ISSN	1383-5866
DOI	10.1016/j.seppur.2021.119118

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Abstract	[Display omitted] •Pilot Scheibel column was investigated for extraction of La(III) and Ce(III) ions.•Forward mixing model was used for the description of mass transfer coefficient.•Results showed positive and negative effects of operating parameter on Ec, Ed, and α.•The FMM model has good desirability to predict the mass transfer coefficients. The extraction of rare earth metals is critical due to their applicability in the industry. Because of this subject’s importance, the Scheibel column with the regular packing structure was investigated in the extraction process of lanthanum and cerium ions. Mass transfer coefficients identified the column performance in the transport stage of La(III) and Ce(III) from the aqueous phase to the organic phase. The variations in operating conditions were investigated to optimize the extraction of two ions. The backflow model (BFM), axial dispersion model (ADM), and forward mixing model (FMM) were investigated to evaluate the mass transfer performance in the column. The result showed that the description of the volumetric overall mass transfer coefficient with the forward mixing model is more significant than the two other models. The FMM model was evaluated by the function of droplet size and droplet residence time and the concentration profiles fitting technique. The medium of average absolute relative error obtained by the FMM model is ~ 4.45% and ~ 18.40% (lanthanum extraction) and ~ 10.75% and ~ 14.99% (cerium extraction) for the continuous and dispersed phase, respectively. It indicated that the applied model has a remarkable accuracy for the description of mass transfer performance. The result showed that the rotor’s speed has the most notable effects on the extraction conditions.
AbstractList	[Display omitted] •Pilot Scheibel column was investigated for extraction of La(III) and Ce(III) ions.•Forward mixing model was used for the description of mass transfer coefficient.•Results showed positive and negative effects of operating parameter on Ec, Ed, and α.•The FMM model has good desirability to predict the mass transfer coefficients. The extraction of rare earth metals is critical due to their applicability in the industry. Because of this subject’s importance, the Scheibel column with the regular packing structure was investigated in the extraction process of lanthanum and cerium ions. Mass transfer coefficients identified the column performance in the transport stage of La(III) and Ce(III) from the aqueous phase to the organic phase. The variations in operating conditions were investigated to optimize the extraction of two ions. The backflow model (BFM), axial dispersion model (ADM), and forward mixing model (FMM) were investigated to evaluate the mass transfer performance in the column. The result showed that the description of the volumetric overall mass transfer coefficient with the forward mixing model is more significant than the two other models. The FMM model was evaluated by the function of droplet size and droplet residence time and the concentration profiles fitting technique. The medium of average absolute relative error obtained by the FMM model is ~ 4.45% and ~ 18.40% (lanthanum extraction) and ~ 10.75% and ~ 14.99% (cerium extraction) for the continuous and dispersed phase, respectively. It indicated that the applied model has a remarkable accuracy for the description of mass transfer performance. The result showed that the rotor’s speed has the most notable effects on the extraction conditions.
ArticleNumber	119118
Author	Torab-Mostaedi, Meisam Saremi, Mojtaba Asadollahzadeh, Mehdi Torkaman, Rezvan
Author_xml	– sequence: 1 givenname: Mehdi surname: Asadollahzadeh fullname: Asadollahzadeh, Mehdi email: masadollahzadeh@aeoi.org.ir, mehdiasadollahzadeh@alumni.iust.ac.ir organization: Nuclear Fuel Cycle Research School, Nuclear Science and Technology Research Institute, P.O. Box: 11365-8486 Tehran, Iran – sequence: 2 givenname: Rezvan surname: Torkaman fullname: Torkaman, Rezvan organization: Nuclear Fuel Cycle Research School, Nuclear Science and Technology Research Institute, P.O. Box: 11365-8486 Tehran, Iran – sequence: 3 givenname: Meisam surname: Torab-Mostaedi fullname: Torab-Mostaedi, Meisam organization: Nuclear Fuel Cycle Research School, Nuclear Science and Technology Research Institute, P.O. Box: 11365-8486 Tehran, Iran – sequence: 4 givenname: Mojtaba surname: Saremi fullname: Saremi, Mojtaba organization: Energy Engineering and Physics Department, Amirkabir University of Technology, P.O. Box: 15875-4413 Tehran, Iran
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Snippet	[Display omitted] •Pilot Scheibel column was investigated for extraction of La(III) and Ce(III) ions.•Forward mixing model was used for the description of mass...
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SubjectTerms	Axial dispersion Model Forward Mixing Model Mass Transfer Data Regular Packing Structure Scheibel Column
Title	Assessment of mass transfer coefficients in extraction stages of La(III) and Ce(III) ions by using rotating Scheibel column with regular packing structure
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